1. 1 Roof Top Units Saving Energy and Improving Occupant Comfort Presented by Ethan Bellavance and Mary Jane Poynter

2. 2 Presentation Outline Roof Top Unit (RTU) Overview- how do they work, key components Why are RTU’s so prevalent? What are problems with RTU’s How to improve reliability and reduce energy usage. Good, Better, Best Approach Results of Efficiency Vermont RTU pilot Conclusion

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4. 4 Roof Top Unit Components

5. 5 Key Energy Components 1.) Compressors 2.) Supply fans, condenser fans 3.) Heat Source 4.) Economizer 5.) Crankcase heaters

6. 6 Why are they everywhere? Simplicity – you can get it all (heating, cooling, ventilation) Readily Available Great option for leased space Low first cost option

7. 7 University mall

8. 8 Barnes and Noble

9. 9 RTU Problems Out of sight out of mind Lack of maintenance Limp along attitude False sense of efficiency NBI - REVIEW OF RECENT COMMERCIAL ROOF TOP UNIT FIELD STUDIES IN THE PACIFIC NORTHWEST AND CALIFORNIA, 2004”; pg. 6

10. 10 What can be done to improve them? We propose three options to fit numerous budget situations. 1.Good - Maintenance 2.Better – Advanced Controls 3.Best – New “Best of the Best” Unit

11. Average Costs of Approach 10 Ton RTU

12. 12 Age Based Approach Applicability

13. 13 The Good Approach Overhauling and maintaining your existing RTU Quarterly and yearly preventive maintenance Planning for failures and replacements What do you need to be looking for? Education

14. 14 The Better Approach Add advanced controls to existing RTU Definition of advanced controls: VFD control of supply fan and compressor or supply fan only Advanced Economizer functions Fault diagnostics and web based interface We’ve worked with Digi RTU and Catalyst

15. 15 How do Controllers Work? Note: You need a properly functioning RTU before a controller is installed.

16. 16 The Best Approach: DOE Challenge Qualifying Units Install new “high efficiency” >18IEER unit Not cost effective if existing RTU is functioning properly and is well maintained. Best when replacing failed units or scheduled replacement due to end of life R22 phase-out will have an impact on the market take-up

17. 17 Potential Energy Savings Compared to a code compliant 10 ton RTU 5,000 KWH savings/Year 30 MMBTU savings/Year $1100-1600/year operating cost savings Conservative Incremental Cost $8,000 Return on Investment 5-7 years

18. 18 Efficiency Vermont RTU Pilot Results

19. 19 Pilot Scope LocationSpace TypeRTU Size Range RTU Age Range Number of RTU’s Metered Vermont Country Store Mixed Use, Mainly Warehouse, some Office 8 to 2013 to 216 Vishay Light Manufacturing 10 to 151 to 125 Vermont Energy Investment Corporation Office8 to 302 to 103

20. 20 What did we Find?

21. 21 Inoperable Compressors

22. 22 Compacted Coils

23. 23 Corroded Contactors

24. 24 Worn Belts

25. 25 Things to Watch out For http://images04.olx.com/ui/4/28/53/1357337656_469672553_4-Bee-removal-silver-lake-save-the-bees- 213-928-7764-Services.jpg

26. 26 What was the energy impact of the tune-up?

27. 27 Controller Energy Savings per Ton

28. 28 The Better Approach: Controller % Savings

29. 29 Pilot Status Data will continue to be collected at phase 1 sites in 2014. Identification and metering of Phase 2 clients will begin in spring 2014. Installation of up to another 8 controllers in phase 2 Published results of all pilot locations

30. 30 Conclusion Options for existing RTU Cost effective solutions Path to energy savings

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